EP1797996A1 - Vise with force amplifier - Google Patents

Abstract

The vice has a force amplifier (1) with a primary component (P) and a force amplifying secondary component (S), where the primary component has a wedge-shaped primary unit (2) designed as a double wedge and is movable linear to the secondary component. The double wedge has two wedges that are arranged in series, and two pairs of contacting rollers (6a, 6b, 7a, 7b) are arranged between the components.

Description

The invention relates to a power assisted vise, the power amplifier comprising a primary assembly and a secondary force amplifying group, the primary assembly comprising a wedge-shaped primary element which, like the secondary assembly, is linearly movable, with a first and second primary assembly between the primary assembly and the secondary assembly a second contacting pair of rollers is arranged.

To securely and permanently clamp a workpiece in a vise for chip processing, power amplifiers are used.

Such a mechanical power amplifier is used for example in utility models DE 78 30 221 U1 described. The power amplifier has a wedge-shaped primary element, which is displaceable along a plane of symmetry between a first pair of two rollers arranged in mirror symmetry with respect to a plane of symmetry, and a secondary element which can be displaced in the same direction. Freely movable rollers of the first pair of rollers are supported on the one hand on a stationary abutment surface and on the other hand on an axially parallel freely movable roller of a second pair of rollers, wherein the roller pair is offset in the direction of the wedge tip relative to the first pair of rollers and the rollers of the second pair of rollers on abutment surfaces of Support the secondary link. The bearing surfaces of the roller pair include with the plane of symmetry an inclination angle which is smaller than 90 °.

For centering the second pair of rollers in the initial position mirror image to the plane of symmetry arranged centering surfaces between the rollers and this second pair of rollers are provided. The touching rollers and their bearing surfaces are held in constant contact by a spring arrangement acting on the secondary element. The roll diameter, the inclination angle of the bearing surfaces and the wedge angle of the primary member are chosen so that in all operating positions of the power amplifier, the axes of two touching rollers are always on the plane of symmetry facing side of the connecting line between the contact lines of these roles with their bearing surfaces. Such power amplifiers have considerable frictional portions on their contacting surfaces and are therefore difficult to move or are not suitable for high forces. It occurs a so-called Wälzgleiten, conditionally by the different angles at the stationary abutment surface and the bearing surface.

There are also known power amplifier with a more pronounced rolling motion in the power structure. Although these have lower frictional shares and therefore require relatively smaller operating forces, but they are very prone to breakage and failure at high loads and therefore less suitable, since in particular balls between the support members or guide plates are used for the reel body.

The present invention has for its object to provide a vise with a power amplifier of the type mentioned, which overcomes the disadvantages of the prior art by an improved design.

This object is achieved in that the wedge-shaped element is designed as a double wedge.

By forming a double wedge with two separate, offset wedge surfaces, a force-stable kinematics is achieved, which leads to a pure rolling movement in the high load range. The design (wedge surfaces and / or wedge angle) of the two wedges leads to greater variability in the dimensioning and design of the power amplifier with relatively low operating forces.

Conveniently, the double wedge on a first wedge and a second wedge arranged one behind the other. In this case, the first wedge, the first pair of rollers and the second wedge associated with the second pair of rollers. Thus, a compact design is achieved, which realizes a very effective power amplifier with a small stroke.

Conveniently, it is provided that the first wedge on the front End of the primary element is arranged. The primary element is movable in the direction of action in the direction of the secondary module. The first wedge faces the secondary assembly and cooperates with the first pair of rollers which abut the secondary group.

Preferably, in the non-active state of the power amplifier, the second, the primary assembly contacting pair of rollers are engaged by the second wedge. Thus, the double wedge is securely clamped in the inactive state and allows only the hub to the active force-boosted state.

In order to produce a harmonious rolling motion between the successive pairs of rollers, in particular on the second pair of rollers, the ratio of a first primary wedge angle (α) between an axis of symmetry and a wedge surface of the first wedge to the second primary wedge angle (β) between the axis of symmetry and a wedge surface of the second Wedge about 4/1 to 4/3, preferably about 2/1, more preferably 3/2.

In order to achieve a slender design of the wedge-shaped primary element, that is the wedge bolt, the first wedge of the primary element with a first primary wedge angle (α) to the symmetry axis between about 10 ° to 45 °, preferably between about 15 ° to 25 °, particularly preferred about 20 °, formed.

Conveniently, the second wedge of the primary element with a second primary wedge angle (β) between about 5 ° to 35 °, preferably between 10 ° to 15 °, more preferably about 12 ° formed.

In order to transmit the highest possible loads and forces, the wedge-shaped primary element to a plane of symmetry, the is the symmetry axis and to which the power amplifier including the two contacting pairs of rollers (6a, 6b, 7a, 7b) is arranged in mirror image or are formed flat.

In an alternative embodiment, the (in view seen) wedge-shaped primary element may be rotationally symmetrical in order to minimize the contact surfaces to the roller pairs as possible and thus to generate extremely low friction, especially in the first wedge.

Preferably, the profile transition from the second wedge of the primary element to the spline of the first wedge of the wedge-shaped primary element is formed with a radius which substantially corresponds to the radius of a roller of the second, adjacent roller pair (6a, 6b). This makes it possible, if necessary, to pull the primary wedge out of the roller arrangement.

In order to dimension a force-enhancing effect and to optimize the given requirements as possible, an abutment surface belonging to the secondary assembly, which is contacted by the first pair of roller bearings, with an abutment angle (6) between about 0 ° to 20 ° to a plane perpendicular to the axis of symmetry formed outside symmetrically to a plane of symmetry. In particular, this inclined abutment surface each extends approximately from the projected onto the abutment surface rotation axis of the respective roller of the first pair of rollers, so that there is a - seen in cross section - concave abutment surface. Furthermore, the invention provides that the abutment surface alternatively in itself, that is not bent (be it concave or convex) is formed. This plane thus defined is at right angles to the axis of symmetry (δ = 0) or is inclined thereto.

Advantageously, one belonging to the primary assembly forms, inclined to the symmetry axis abutment surface, which contacts the second pair of roller bearings, a abutment angle (r) to the perpendicular of the symmetry axis between about 15 ° to 45 °, preferably about 30 °, from. This results in a further adjustment and dimensioning possibility of the power amplifier according to the invention.

In order to load the roller bearing pairs as uniformly as possible and to reduce the manufacturing costs, identical roller bearings are used, so that the roller bearing pairs each have the same diameter.

In order to accommodate or transmit large forces that may be exposed to a high load, the ratio between the diameter D of a roller bearing and the radius of a cylindrical abutment of the primary assembly and the abutment of the secondary assembly is about 2/3 to 4/5 , preferably about 3/4.

Conveniently, the abutment surface of the primary assembly - seen in cross-section - two oppositely bent portions, wherein the second abutment surface is formed mirror image of the symmetry axis thereof. Seen in cross section then results in a slightly S-shaped configuration. This results in an abutment surface, which advantageously enhances the effect of the power amplifier during movement of the primary element.

The surfaces of the pairs of rolls are preferably greased with oil, and preferably the booster is filled with a filling amount of about 20 to 60 volume percent, more preferably about 40 volume percent, with a greasy specification. This ensures sufficient lubrication that reduces friction forces to a minimum.

So that the roller bearing pairs are forcibly guided in one plane, is the first, the secondary assembly contacting roller bearing pair out in a cage, in particular, the second, the primary assembly contacting roller bearing pair is at least partially guided by the cage.

Alternatively, two parallel lateral guide boundaries for guiding and supporting the pairs of rollers, in particular mounted in each case a linear guide can be arranged. This is a cheap and very functional solution.

To improve the force-enhancing effect, the wedge surfaces of the first wedge may each be convexly curved outwards, in particular, the wedge surfaces of the second wedge of the primary element may be convexly curved outward. In order to reduce the contacting points to a minimum, alternatively, the roller bearing pairs may be formed as pairs of balls. According to the invention, the rolling bearing pairs have the task of performing a rolling movement on each other. This can be done by ball pairs - as described -, or here also cylinder pairs can be used, which then results not a point contact, but a line pad. According to the invention, the term roller bearing pair comprises both pairs of balls as well as pairs of cylinders.

Alternatively, also belonging to the invention, it is proposed that the wedge surfaces of at least one wedge not curved, but is flat. This increases the wealth of implementation options and the variability of the invention increases accordingly. It is also provided to combine a curved, curved wedge surface of a wedge with an unbent, flat wedge surface of the other wedge.

The advantage of the invention lies in particular in its wide range of realization options. There may be power amplifiers with low or high power gain with low or high lift can be realized. This is achieved in particular by a corresponding combination of the parameters of the first (α) and second (β) primary wedge angles as well as the embodiment of the abutment surface or abutment surface (flat, curved), abutment angle (δ) and abutment angle (r).

Of course, the invention also includes a booster, which is not to be seen in connection with the disclosed vise, but which comprises all previously identified features, as set forth in connection with the vise includes.

Fig. 1:

einen Querschnitt eines Kraftverstärkers gemäß der Erfindung;

Fig. 2:

einen Querschnitt eines Kraftverstärkers mit den wesentlichen Abwälzpunkten gemäß der Erfindung,

Fig. 3:

einen Querschnitt des Kraftverstärkers mit den wesentlichen winkeln zum Dimensionieren des Kraftverstärkers gemäß der Erfindung,

Fig. 4:

einen Kraftverstärker im Querschnitt im eingebauten Zustand gemäß einer ersten Ausführungsform gemäß der Erfindung und

Fig. 5:

einen Kraftverstärker in einer weiteren Ausführungsform der Erfindung.

It is understood that the features mentioned above and below are not only usable in the respective combination indicated, but also in other combinations. The invention will be explained in more detail below with reference to two exemplary embodiments with reference to five associated drawings. Show it:

Fig. 1:

a cross section of a power amplifier according to the invention;

Fig. 2:

a cross section of a power amplifier with the essential Abwälzpunkten according to the invention,

3:

a cross section of the power amplifier with the essential angles for dimensioning the power amplifier according to the invention,

4:

a power amplifier in cross-section in the installed state according to a first embodiment according to the invention and

Fig. 5:

a power amplifier in a further embodiment of the invention.

Fig. 1 shows the essential components for the power amplifier 1 according to the invention. A primary assembly P comprises a wedge-shaped primary element 2 and an abutment 3, which has a centered bore in which the primary element 2 is guided.

A secondary assembly S comprises a cylindrical abutment 8. The primary element 2 is inventively designed as a wedge-shaped bolt with a double wedge. The double wedge has a first wedge 2a and a second wedge 2b arranged behind it. The first wedge 2a is associated with a first pair of rollers 7a, 7b, which is arranged in mirror image to an axis of symmetry 5, which is located simultaneously in a plane of symmetry. The second wedge 2b is associated with a second pair of rollers 6a, 6b.

In the non-active state of the power amplifier 1, the second pair of rollers 6a, 6b closest to the primary assembly P is in engagement with the second wedge 2b. The contacting first and second pairs of rollers 7a, 7b, 6a, 6b are arranged between the abutment 3 of the primary assembly P and the abutment 8 of the secondary assembly S.

The abutment 3 is designed as a wide ring or as a cylinder which has a plane end face on the side facing away from the power amplifier 1 and forms abutment surfaces 4a, 4b on the opposite side. Seen in cross-section, the one abutment surface 4a is formed as a slightly S-shaped profile surface, while the opposite abutment surface 4b to the symmetry axis 5 is a mirror image Profile shape has.

In order to carry out the primary element 2, which can also be referred to as a wedge pin, in a slim design, the wedge bolt has the following relationships:

The maximum wedge diameter K of the first wedge 2a to the diameter B of the wedge bolt or primary element 2 has a ratio of about 7/17, and the most tapered transition from the first wedge 2a to the second wedge 2b, which are referred to as neck or as a neck could, has a diameter H in relation to the diameter B of the primary element 2 of 3/17.

The rollers 6a, 7a roll upon movement of the primary element 2 in the direction of the wedge tips at the contact point 22 from each other. At the same time, when the rollers 7a and 7b move apart on the abutment surface 9 of the abutment 8, the roller 7a rolls outward in the displacing contact point 24. At the same time, the roller 6a of the second roller pair 6a, 6b moves by rolling on the abutment surface 4a of the abutment 3 on the changing contact point 20, while the roller 6a runs on the wedge surface of the second wedge 2b. The symmetrically arranged rollers 7b and 6b move in mirror image.

A first connecting line including the contact point 22 and the contact point 24 and a second connecting line including the contact point 22 and the contact point 20 intersect each other at an obtuse angle (between 90 ° and 180 °). The centers of the rolling bearing pairs are not on the respective connecting lines. This configuration results in a stable defined position. Furthermore, the arrangement is chosen so that the connecting line of the centers of the respective roller bearing pairs to the respective contact points 24 and 20 also includes an obtuse angle with the midpoint connecting line of the two roller bearings, which also includes the contact point 22. The arrangement is chosen so that the connection line is inclined away from the respective center points to the respective contact points 20, 24 of the axis of symmetry 5.

Fig. 3 shows the essential angle of a power amplifier 1, which can be dimensioned changed depending on the request case and load case to interpret the power amplifier 1 according to the specifications. They thus allow increased variability over power amplifiers 1 according to the prior art. The first and second primary angles α and β are located on the double-wedge-shaped primary element 2. The first primary angle α of the first wedge 2 a from a wedge surface to the symmetry axis 5 is 20 °. The second primary angle of the second stepped wedge 2 b is about 12 ° from a wedge surface to the symmetry axis 5.

The abutment surface 4 a, 4 b of the abutment 3 are inclined to the symmetry axis 5 inwardly at an angle δ of approximately 30 ° to the perpendicular to the perpendicular axis 5 or to the parallel plane of the end face of the abutment 3.

The anvil 8 is formed with approximately the same radius as the abutment 3.

The anvil 8 is cylindrical and has a mirror symmetry to the symmetry axis 5 arranged abutment surface, which is contacted by the also arranged in mirror image first roller bearing pair 7a, 7b. The abutment surface forms an abutment angle δ with approximately 10 ° to a plane perpendicular to the axis of symmetry to the outside. The abutment surface is flat in a central region about the axis of symmetry 5, that is to say perpendicular to the axis of symmetry. The Counter-bearing surface 9 extends starting at the above-mentioned angle in each case approximately from the rotational axis 13 of the roller 7a, 7b of the first roller pair projected onto the abutment surface 9. The abutment surface is thus - seen in cross section - concave.

The roller pairs 6a, 6b, 7a, 7b are each formed with the same diameters D. The diameter D to the radius R of the cylindrical abutment 8 is in the ratio of about 3/4. Thus, an overall slim design of the wedge-shaped primary element 2 and the entire power amplifier 1 is created.

According to an alternative embodiment, the wedge-shaped primary element 2 is rotationally symmetrical, that is, the wedge tip is conical. Thus, the frictional surfaces of the contact points with the rollers 6a, 6b, 7a, 7b are reduced, so that a low resistance occurs under compressive load.

In a flat conical primary element 2, as shown in FIGS. 1 to 5, ball pairs can also be used instead of roller elements. Ball pairs have the advantage that a friction between the individual wedge surfaces of the first wedge 2a and the second wedge 2b is reduced to a minimum, namely to a contact point, both on the abutment surface 9, as well as on the abutment surface 4a, 4b of the primary assembly S relationship the secondary module S.

The abutment surface 9 may be slightly curved outward, so be convex. Thus, the power amplification effect is improved when the double wedge, that is, the primary element 2, is moved in the direction of the wedge tip and the pair of rollers 7a, 7b is driven apart and thus increases the distance between the primary assembly P and the secondary assembly S.

4 shows the power amplifier 1 in the installed state. The counter bearing 8 is formed in this case as a fixed bearing, which may be biased by a spring, not shown. The abutment 3 moves out of a cylindrical tube 10, when the double wedge of the primary element 2, the pair of rollers 7a, 7b, which contacts the secondary assembly engages and drives both pairs of rollers 6, 7 mirror images apart, so that the distance of the primary assembly P and the secondary assembly. 5 due to the inwardly inclined to the axis of symmetry 5 surfaces 4a, 4b, 9 increases. The rollers 6a, 6b move outward like a hinge, while they roll on the abutment surface 4a and 4b and on the abutment surface 9 at the same time. The second roller bearing pair 6a, 6b rolls on the surfaces of the second wedge 2b. The first roller bearing pair 7a, 7b is driven apart by the first wedge 2a. The feed 30 of the primary element 2 leads to the movement of rolling of the roller bearing pairs 6a, 6b, 7a, 7b indicated by rotation arrows. The feed 30 results from a crank movement on the arranged on the right side crank. The held in a threaded crank projection acts on a translator piece according to the Kurbebewegung (according to arrow 30) forward and backward (for example, spring assisted) is.

Fig. 5 shows the power amplifier in a second alternative embodiment, in which case in contrast to FIG. 4, the abutment 3 is designed as a fixed bearing and the counter-bearing 8 is biased by means of springs 12. The forces are shown here by means of arrows which lie on the axis of symmetry 5 and from two sides, once the primary assembly P and the secondary assembly S, attack.

In order to make the roller pairs run easily and as wear-free as possible, they are greased, whereby the volume is filled with a greasing specification of up to 40%.

The rollers are guided with two (not shown) parallel guide boundaries or guide parts, so that a rotation and a defined movement of the rollers 6a, 6b, 7a, 7b in a plane is possible. These guide parts (not shown) can be fastened by means of linear guides between the abutment 3 and the abutment 8.

This design allows a kinematics stable in terms of power with a pure rolling movement in the high-load range, which despite a relatively large rollers or rollers a slim design is achieved. Important for the design of the wedge surfaces of the first and second wedge 2a, 2b is that they are in a certain angular relationship to each other, the angular ratio harmonizes with the rolling motion of the reel body. In particular, reference is made to the drawings of all figures as essential.

The claims now filed with the application and later are attempts to formulate without prejudice to the attainment of further protection.

If, on closer examination, in particular also of the relevant prior art, it appears that one or the other feature is beneficial for the purpose of the invention, but not of decisive importance, it is of course already desired to formulate such a feature , in particular in the main claim, no longer having.

The references cited in the dependent claims indicate the further development of the subject matter of the main claim by the features of the respective subclaim. However, these are not to be understood as a waiver of obtaining independent, objective protection for the features of the dependent claims.

Features that have hitherto been disclosed only in the description can be claimed in the course of the method as of essential importance to the invention, for example to delineate the prior art.

Features which have been disclosed only in the description, or also individual features of claims comprising a plurality of features, may at any time be included in the first claim for distinction from the prior art, even if such features are associated with others Characteristics were mentioned or achieve particularly favorable results in connection with other features.

Claims (10)

Vise with power amplifier (1), wherein the power amplifier (1) has a primary assembly (P) and a secondary force-reinforcing assembly (S), wherein the primary assembly (P) comprises a wedge-shaped primary element (2), which - as well as the secondary assembly (S) - Is linearly movable, wherein between the primary assembly (P) and the secondary assembly (S) a first and a second contacting roller pair (6a, 6b, 7a, 7b) is arranged, characterized in that the wedge-shaped primary element (2) as a double wedge is trained. Vice according to Claim 1, characterized in that the double wedge has a first wedge (2a) and a second wedge (2b) arranged one behind the other and / or the first wedge (2a) of the primary element (2) with a first primary wedge angle (α) of one Wedge surface to the symmetry axis (5) between about 10 ° to 45 °, preferably between about 15 ° to 25 °, more preferably about 20 °, is formed and / or the second wedge (2b) of the primary element (2) with a second primary wedge angle (β) of a wedge surface to the symmetry axis (5) between about 5 ° to 35 °, preferably between 10 ° to 15 °, more preferably about 12 °, is formed. Vice according to one or both of the preceding claims, characterized in that the first wedge (2a) is arranged at the front end of the primary element (2) and / or the first wedge (2a) the first pair of rollers (7a, 7b) and the second wedge (2b) the second roller pair (6a, 6b) is associated and / or in the inactive state of the power amplifier, the second, to the primary assembly (P) contacting roller pair (6a, 6b) is in engagement of the second wedge (2b). Vice according to one or more of the preceding claims, characterized in that the ratio of a first primary wedge angle (α) between the symmetry axis (5) and a wedge surface of the first wedge (2a) to the second primary wedge angle (β) between an axis of symmetry and a wedge surface of the second Wedge (2b) is about 4: 1 to 4: 3, preferably about 2: 1, more preferably 3: 2, and / or the wedge-shaped primary element (2) to a plane of symmetry which lies on the symmetry axis (5) and to the two contacting pairs of rollers (6a, 6b, 7a, 7b) are arranged in mirror image, is formed flat or that the wedge-shaped primary element (2) is rotationally symmetrical and / or the profile transition from the second wedge (2b) of the primary element (2) to the spline of the first wedge (2a) of the wedge-shaped primary element (2) is formed with a radius substantially equal to the radius of a roller (6a, 6b) of the second roller pair (6a, 6b) tspricht. Vice according to one or more of the preceding claims, characterized in that one to the secondary assembly belonging abutment surface (9), which is contacted by the first roller bearing pair (7a, 7b), with a abutment angle (δ) between about 0 ° to 20 °, preferably about 10 °, a plane perpendicular to the axis of symmetry (5) to the outside symmetrical to a plane of symmetry, wherein in particular this inclined abutment surface (9) in each case approximately from the on the abutment surface (9) projected rotation axis (13) of the respective roller (7a, 7b) extending starting so that a - seen in cross section - concave An abutment surface (9) results or the abutment surface (9) is formed flat in itself. Vice according to one or more of the preceding claims, characterized in that a support surface (4a, 4b) inclined relative to the symmetry axis (5) and contacting the second roller bearing pair (6a, 6b) belongs to the primary assembly (P) and forms an abutment angle (r). to the perpendicular of the symmetry axis (5) between about 15 ° to 45 °, preferably about 30 °, forms. Vice according to one or more of the preceding claims, characterized in that the roller bearing pairs (6a, 6b, 7a, 7b) each have the same diameter (D) and / or the ratio between the diameter (D) of a roller bearing and the radius (R) of a roller bearing cylindrical abutment (3) of the primary assembly (P) or thrust bearing (8) of the secondary assembly (S) 2/3 to 4/5, more preferably about 3/4, is. Vise according to one or more of the preceding claims, characterized in that an abutment surface (4a) of the primary assembly (P) - seen in cross-section - has two oppositely bent portions and the second abutment surface (4b) to the axis of symmetry (5) mirror image of which is formed. Vice according to one or more of the preceding claims, characterized in that the first, the secondary assembly (S) contacting roller bearing pair (7a, 7b) is guided in a cage, in particular the second primary assembly (P) contacting roller bearing pair (6a, 6b) at least Partially guided by the cage and / or two parallel lateral guide boundaries for guiding and supporting the roller bearing pairs (6a, 6b, 7a, 7b), in particular mounted in each case a linear guide, and / or the roller bearing pairs (6a, 6b, 7a, 7b ) are formed as pairs of balls or as pairs of cylinders. Vise according to one or more of the preceding claims, characterized in that the wedge surfaces of the first wedge (2a) are convexly outwardly curved in each case, in particular also the wedge surfaces of the second wedge (2b) of the primary element (2) are convexly curved outwards and / or the wedge surfaces of one or both wedges (2a, 2b) is flat.

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